Add to ORKGThe authors discuss two discrete-basis-function approaches to the solution of the T-matrix equations for the scattering of electrons by atoms or molecules. Both methods, one of which is based on the Schwinger variational principle, have major advantages over the previously proposed T-matrix methods and do not require large-basis-set expansions. Results are reported for s- and p-wave scattering for helium
The investigation of scattering phenomena is a major theme of modern physics. A scattered particle p...
We describe a FORTRAN-90 program that computes scattering t-matrices for a molecule. These can be us...
In this contribution we want to discuss several features and applications of the Schwinger variatio...
We present a method for calculating the continuum wave function in electron-molecule scattering for ...
We show that the minimization of the variance integral provides a method for the determination of sc...
We present a method for including a variational correction in the discrete-basis-set method for elec...
We present an iterative approach which uses the Schwinger variational principle to solve the Lippman...
The authors present the results of applications of the Schwinger variational principle to the scatte...
We discuss a multichannel formulation of the Schwinger and a related variational principle (of one o...
Abstract. We present a simple, approximate method for calculating low-energy electron-molecule scatt...
A method of calculating scattering amplitudes for nonspherical potentials is proposed. The Lippmann-...
Theoretical studies of electron-atom and electron-molecule scattering are reported. Second Born scat...
[[abstract]]The use of the contracted basis functions is a very powerful and widely used techn...
A method is proposed for reducing the complexity of scattering calculations carried out using the Ko...
The authors present a method for applying the Schwinger variational principle to the scattering of l...
The investigation of scattering phenomena is a major theme of modern physics. A scattered particle p...
We describe a FORTRAN-90 program that computes scattering t-matrices for a molecule. These can be us...
In this contribution we want to discuss several features and applications of the Schwinger variatio...
We present a method for calculating the continuum wave function in electron-molecule scattering for ...
We show that the minimization of the variance integral provides a method for the determination of sc...
We present a method for including a variational correction in the discrete-basis-set method for elec...
We present an iterative approach which uses the Schwinger variational principle to solve the Lippman...
The authors present the results of applications of the Schwinger variational principle to the scatte...
We discuss a multichannel formulation of the Schwinger and a related variational principle (of one o...
Abstract. We present a simple, approximate method for calculating low-energy electron-molecule scatt...
A method of calculating scattering amplitudes for nonspherical potentials is proposed. The Lippmann-...
Theoretical studies of electron-atom and electron-molecule scattering are reported. Second Born scat...
[[abstract]]The use of the contracted basis functions is a very powerful and widely used techn...
A method is proposed for reducing the complexity of scattering calculations carried out using the Ko...
The authors present a method for applying the Schwinger variational principle to the scattering of l...
The investigation of scattering phenomena is a major theme of modern physics. A scattered particle p...
We describe a FORTRAN-90 program that computes scattering t-matrices for a molecule. These can be us...
In this contribution we want to discuss several features and applications of the Schwinger variatio...